TEMPERATURE AND PRESSURE EFFECT ON THE ANISOTROPY OF DIELECTRIC PERMEABILITY IN KDP AND DKDP CRYSTALS

TEMPERATURE AND PRESSURE EFFECT ON THE ANISOTROPY OF DIELECTRIC PERMEABILITY IN KDP AND DKDP CRYSTALS

Temperature dependences of longitudinal and transverse dielectric permeability of KDP and DKDP crystals are studied at different values of hydrostatic pressure in order to determine the pressure behaviour of the isotropic point for these crystals. The isotropic point temperature in KDP crystals at a...

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Main Authors: V.M.Kedyulich, A.G.Slivka, E.I.Gerzanich, A.M.Guivan, P.M.Lukach
Format: Article
Language:English
Published: Institute for Condensed Matter Physics 2003-01-01
Series:Condensed Matter Physics
Subjects:
ferroelectrics
dielectric permeability
hydrostatic pressure
isotropic point
Online Access:http://dx.doi.org/10.5488/CMP.6.2.271
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spelling doaj-6737429cdced4419913c9c83f1e9ee352020-11-24T21:07:11ZengInstitute for Condensed Matter PhysicsCondensed Matter Physics1607-324X2003-01-016227128010.5488/CMP.6.2.271TEMPERATURE AND PRESSURE EFFECT ON THE ANISOTROPY OF DIELECTRIC PERMEABILITY IN KDP AND DKDP CRYSTALSV.M.KedyulichA.G.SlivkaE.I.GerzanichA.M.GuivanP.M.LukachTemperature dependences of longitudinal and transverse dielectric permeability of KDP and DKDP crystals are studied at different values of hydrostatic pressure in order to determine the pressure behaviour of the isotropic point for these crystals. The isotropic point temperature in KDP crystals at atmospheric pressure is T<sub>i</sub>=186 K at the measuring field frequency 1 kHz and T<sub>i</sub>=176 K at the frequency of 1 MHz. In DKDP crystals the isotropic point is achieved at the temperature T<sub>i</sub>=300 K (1 kHz) and T<sub>i</sub>=253 K (1 MHz). The hydrostatic pressure increase results in the reduction of the isotropic point temperature with the pressure coefficients &part;T<sub>i</sub> / &part;p = -4.3 K/kbar for KDP and &part; T<sub>i</sub> / &part; p = -2.9 K/kbar for DKDP. The analysis of the experimental results in the framework of the Blinc-Zeks pseudospin formalism has shown a good agreement between the calculated and the experimentally obtained temperature of the isotropic point for KDP crystals.http://dx.doi.org/10.5488/CMP.6.2.271ferroelectricsdielectric permeabilityhydrostatic pressureisotropic point
collection DOAJ
language English
format Article
sources DOAJ
author V.M.Kedyulich
A.G.Slivka
E.I.Gerzanich
A.M.Guivan
P.M.Lukach
spellingShingle V.M.Kedyulich
A.G.Slivka
E.I.Gerzanich
A.M.Guivan
P.M.Lukach
TEMPERATURE AND PRESSURE EFFECT ON THE ANISOTROPY OF DIELECTRIC PERMEABILITY IN KDP AND DKDP CRYSTALS
Condensed Matter Physics
ferroelectrics
dielectric permeability
hydrostatic pressure
isotropic point
author_facet V.M.Kedyulich
A.G.Slivka
E.I.Gerzanich
A.M.Guivan
P.M.Lukach
author_sort V.M.Kedyulich
title TEMPERATURE AND PRESSURE EFFECT ON THE ANISOTROPY OF DIELECTRIC PERMEABILITY IN KDP AND DKDP CRYSTALS
title_short TEMPERATURE AND PRESSURE EFFECT ON THE ANISOTROPY OF DIELECTRIC PERMEABILITY IN KDP AND DKDP CRYSTALS
title_full TEMPERATURE AND PRESSURE EFFECT ON THE ANISOTROPY OF DIELECTRIC PERMEABILITY IN KDP AND DKDP CRYSTALS
title_fullStr TEMPERATURE AND PRESSURE EFFECT ON THE ANISOTROPY OF DIELECTRIC PERMEABILITY IN KDP AND DKDP CRYSTALS
title_full_unstemmed TEMPERATURE AND PRESSURE EFFECT ON THE ANISOTROPY OF DIELECTRIC PERMEABILITY IN KDP AND DKDP CRYSTALS
title_sort temperature and pressure effect on the anisotropy of dielectric permeability in kdp and dkdp crystals
publisher Institute for Condensed Matter Physics
series Condensed Matter Physics
issn 1607-324X
publishDate 2003-01-01
description Temperature dependences of longitudinal and transverse dielectric permeability of KDP and DKDP crystals are studied at different values of hydrostatic pressure in order to determine the pressure behaviour of the isotropic point for these crystals. The isotropic point temperature in KDP crystals at atmospheric pressure is T<sub>i</sub>=186 K at the measuring field frequency 1 kHz and T<sub>i</sub>=176 K at the frequency of 1 MHz. In DKDP crystals the isotropic point is achieved at the temperature T<sub>i</sub>=300 K (1 kHz) and T<sub>i</sub>=253 K (1 MHz). The hydrostatic pressure increase results in the reduction of the isotropic point temperature with the pressure coefficients &part;T<sub>i</sub> / &part;p = -4.3 K/kbar for KDP and &part; T<sub>i</sub> / &part; p = -2.9 K/kbar for DKDP. The analysis of the experimental results in the framework of the Blinc-Zeks pseudospin formalism has shown a good agreement between the calculated and the experimentally obtained temperature of the isotropic point for KDP crystals.
topic ferroelectrics
dielectric permeability
hydrostatic pressure
isotropic point
url http://dx.doi.org/10.5488/CMP.6.2.271
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